Add to ORKGA discontinuous and non-uniform microstructure of a low-density thermally bonded nonwoven material displays in a complicated and unstable tensile behavior. This paper reports uniaxial tensile tests of a low density thermally bonded nonwoven to investigate the effect of the specimen size and shape factor, as well as the cyclic tensile loading conditions employed to investigate the deformational behavior and performance of the nonwoven at different loading stages. The experimental data are compared with results of microscopic image analysis and FE models
A random and discontinuous microstructure is one of the most characteristic features of a low-densit...
Due to random orientation of fibres and presence of voids in their microstructure, low-density therm...
A random and discontinuous microstructure is one of the most characteristic features of a low-densit...
A discontinuous and non-uniform microstructure of a low-density thermally bonded nonwoven material d...
A discontinuous and non-uniform microstructure of a low-density thermally bonded nonwoven material d...
A discontinuous and non-uniform microstructure of a low-density thermally bonded nonwoven material d...
A discontinuous and non-uniform microstructure of a low-density thermally bonded nonwoven material d...
A discontinuous and non-uniform microstructure of a low-density thermally bonded nonwoven material d...
Nonwoven materials are engineered fabrics, produced by bonding constituent fibres together by mechan...
Nonwoven materials are engineered fabrics, produced by bonding constituent fibres together by mechan...
One of the most important characteristic features of a low-density thermally bonded non-woven materi...
Anisotropic properties of thermally bonded nonwoven fabric (polypropylene) have been investigated. F...
Nonwoven structures have been recently explored for numerous novel applications ranging from composi...
A random and discontinuous microstructure is one of the most characteristic features of a low-densit...
A random and discontinuous microstructure is one of the most characteristic features of a low-densit...
A random and discontinuous microstructure is one of the most characteristic features of a low-densit...
Due to random orientation of fibres and presence of voids in their microstructure, low-density therm...
A random and discontinuous microstructure is one of the most characteristic features of a low-densit...
A discontinuous and non-uniform microstructure of a low-density thermally bonded nonwoven material d...
A discontinuous and non-uniform microstructure of a low-density thermally bonded nonwoven material d...
A discontinuous and non-uniform microstructure of a low-density thermally bonded nonwoven material d...
A discontinuous and non-uniform microstructure of a low-density thermally bonded nonwoven material d...
A discontinuous and non-uniform microstructure of a low-density thermally bonded nonwoven material d...
Nonwoven materials are engineered fabrics, produced by bonding constituent fibres together by mechan...
Nonwoven materials are engineered fabrics, produced by bonding constituent fibres together by mechan...
One of the most important characteristic features of a low-density thermally bonded non-woven materi...
Anisotropic properties of thermally bonded nonwoven fabric (polypropylene) have been investigated. F...
Nonwoven structures have been recently explored for numerous novel applications ranging from composi...
A random and discontinuous microstructure is one of the most characteristic features of a low-densit...
A random and discontinuous microstructure is one of the most characteristic features of a low-densit...
A random and discontinuous microstructure is one of the most characteristic features of a low-densit...
Due to random orientation of fibres and presence of voids in their microstructure, low-density therm...
A random and discontinuous microstructure is one of the most characteristic features of a low-densit...